A liquid crystal display device includes a substrate, first through third thin-film transistors (“TFTs”) disposed on the substrate, and first and second sub-pixel electrodes disposed above the first through third TFTs. The second and third TFTs share a single output terminal as their output terminals, the first sub-pixel electrode is electrically connected to an output terminal of the first TFT, and the second sub-pixel electrode is electrically connected to the single output terminal of the second and third TFTs.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A liquid crystal display (LCD) device, comprising: a substrate; a gate line and a data line intersecting with each other and disposed on the substrate; first through third thin-film transistors (TFTs) disposed on the substrate; and first and second sub-pixel electrodes disposed above the first through third TFTs, wherein the second and third TFTs share a same portion of a single output terminal as their output terminals, the same single output terminal is integrally provided by a same single drain electrode for both the second and third TFTs, the first sub-pixel electrode is electrically connected to an output terminal of the first TFT, the second sub-pixel electrode is electrically connected to the single output terminal of the second and third TFTs, a length of a second channel corresponds to a distance between the single output terminal and an input terminal of the second TFT, a length of a third channel corresponds to a distance between the single output terminal and an input terminal of the third TFT, a direction of the length of the second channel and a direction of the length of the third channel are in a same direction in which the gate line of the first through third TFTs extends, and the single output terminal extends in a same direction in which the data line extends.
2. The LCD device of claim 1 , wherein the single output terminal of the second and third TFTs has a bar shape extending in a straight line along a first direction.
3. The LCD device of claim 2 , wherein each of the input terminals of the second and third TFTs has an outer side extending in a straight line along a second direction.
4. The LCD device of claim 3 , wherein the first direction is the same as the second direction.
5. The LCD device of claim 1 , wherein channels of the second and third TFTs extend in a same direction.
6. The LCD device of claim 1 , further comprising: a sustain electrode, a gate line, and a data line disposed between the substrate and a layer including the first and second sub-pixel electrodes, wherein control terminals of the first through third TFTs are electrically connected to the gate line, an input terminals of the first TFT and the input terminal of the second TFT are connected to the data line, and the input terminal of the third TFT is connected to the sustain electrode.
7. The LCD device of claim 6 , wherein a voltage provided to the second sub-pixel electrode has a level between a voltage provided to the data line and a voltage provided to the sustain electrode.
8. The LCD device of claim 6 , wherein a difference between a voltage provided to the first sub-pixel electrode and the voltage provided to the sustain electrode is greater than a difference between the voltage provided to the second sub-pixel electrode and the voltage provided to the sustain electrode.
9. The LCD device of claim 6 , wherein channels of the second and third TFTs extend in a direction in which the gate line extends.
10. The LCD device of claim 1 , wherein the third TFT further includes a floating electrode disposed between an input terminal thereof and the single output terminal.
11. The LCD device of claim 1 , wherein an input terminal and the output terminal of the first TFT have bar shapes extending in a same direction.
12. An LCD device, comprising: a substrate; a data line disposed on the substrate; a gate line and a sustain electrode which intersect the data line; first and second sub-pixel electrodes disposed above the data line, gate line, and the sustain electrode, a first TFT including a first source electrode electrically connected to the data line, a first drain electrode electrically connected to the first sub-pixel electrode, and a first gate electrode electrically connected to the gate line, a second TFT including a second source electrode electrically connected to the data line, a second drain electrode electrically connected to the second sub-pixel electrode, and a second gate electrode electrically connected to the gate line, and a third TFT including a third source electrode electrically connected to the sustain electrode, the second drain electrode electrically connected to the second sub-pixel electrode, and a third gate electrode electrically connected to the gate line, wherein the second source electrode and third source electrode are disposed contiguous to and on opposite sides of a same portion of the second drain electrode, wherein the second and third TFTs share a same portion of single output terminal as their output terminals, the same single output terminal is integrally provided by a same single drain electrode for both the second and third TFTs, and wherein a length of a second channel corresponds to a distance between the single output terminal and an input terminal of the second TFT, a length of a third channel corresponds to a distance between the single output terminal and an input terminal of the third TFT, a direction of the length of the second channel and a direction of the length of the third channel are in a same direction in which the gate line of the first through third TFTs extends, and wherein the single output terminal extends in a same direction in which the data line extends.
13. The LCD device of claim 12 , wherein the second drain electrode has a bar shape extending in a straight line along a first direction.
14. The LCD device of claim 13 , wherein each of the second and third source electrodes has an outer side extending in a straight line along a second direction.
15. The LCD device of claim 14 , wherein the first and second directions are a same direction.
16. The LCD device of claim 15 , wherein the second source electrode is disposed adjacent to a first side of the second drain electrode, and the third source electrode is disposed adjacent to a second side of the second drain electrode that is opposite to the first side.
17. The LCD device of claim 12 , wherein a voltage provided to the second sub-pixel electrode has a level between a voltage provided to the data line and a voltage provided to the sustain electrode.
18. The LCD device of claim 12 , wherein a difference between a voltage provided to the first sub-pixel electrode and a voltage provided to the second sub-pixel electrode is greater than a difference between the voltage provided to the second sub-pixel electrode and the voltage provided to the sustain electrode.
19. The LCD device of claim 12 , wherein channels of the second and third TFTs extend in a same direction.
20. The LCD device of claim 19 , wherein channels of the second and third TFTs extend in a direction in which the gate line extends.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
January 15, 2018
March 30, 2021
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